Three tidal turbines in interaction: An experimental study of turbulence intensity effects on wakes and turbine performance |
Germain, G., Carlier, C., Pinon, G. |
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Journal Article |
Journal Article |
Current, Axial Flow Turbine |
Lab Data, Modeling |
Array Effects |
A synthetic-eddy method to represent the ambint turbulance in numerical simulation of marine current turbine |
Carlier, C., Pinon, G., Gaurier, B. |
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Conference Paper |
Conference Paper |
Axial Flow Turbine |
Modeling |
|
Experimental study of the turbulence intensity effects on marine current turbines behaviour. Part II: Two interacting turbines |
Mycek, P., Gaurier, B., Germain, G. |
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Journal Article |
Journal Article |
Current, Axial Flow Turbine |
Lab Data, Scale Device |
Array Effects |
Experimental study of the turbulence intensity effects on marine current turbines behaviour. Part I: One single turbine |
Mycek, P., Guarier, B., Germain, G. |
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Journal Article |
Journal Article |
Current, Axial Flow Turbine, Closed-Cycle |
Lab Data |
Hydrodynamics, Performance |
Numerical and experimental study of the interaction between two marine current turbines |
Mycek, P., Gaurier, B., Germain, G. |
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Journal Article |
Journal Article |
Current, Tidal |
Lab Data, Scale Device |
Array Effects |
Numerical simulation of the wake of marine current turbines with a particle method |
Pinon, G., Mycek, P., Germain, G. |
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Journal Article |
Journal Article |
Current, Ocean Current |
Modeling |
Hydrodynamics |
Experimental characterisation of flow effects on marine current turbine behaviour and on its wake properties |
Maganga, F., Germain, G., King, J. |
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Journal Article |
Journal Article |
Current, Axial Flow Turbine |
|
Hydrodynamics, Performance |
Experimental study to determine flow characteristic effects on marine current turbine behaviour |
Maganga, F., Germain, G., King, J. |
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Conference Paper |
Conference Paper |
Current, Axial Flow Turbine |
Lab Data, Modeling |
Hydrodynamics |